Buch, Englisch, Format (B × H): 191 mm x 235 mm
Buch, Englisch, Format (B × H): 191 mm x 235 mm
ISBN: 978-0-443-23923-6
Verlag: Elsevier Science & Technology
Organized in five sections, this book reviews research on green sustainable nanomaterials synthesis for industrial and environmental applications in the mitigation of various types of flame retardants, antioxidants, plasticizers, and light stabilizers that are released from industrial waste or consumer products. Moreover, state-of-the-art methods to eradicate microplastic pollution from ecosystems and future research directions are also discussed, making this book a valuable resource to polymer scientists, environmental scientists, and academic and industrial researchers interested in green sustainable nanomaterials and microplastic pollution control strategies.
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Weitere Infos & Material
Section 1: Sustainable Green Nanomaterials
1. Introduction to green and sustainable nanomaterials: fundamentals and recent developments
2. Fabrication strategies and properties of green and sustainable nanomaterials
3. Fundamentals and recent developments of green and sustainable nanomaterials
4. Potential mechanism for synthesis of green sustainable nanoparticles
Section 2: Microplatics and Nanoplastic Pollution: Environmental Impacts and Current Research Trends
5. Physico-chemical features of micro/nanoplastics and their impacts on the ecosystem with current research trends
6. Materials challenges and opportunities to address growing micro/nanoplastics pollution
7. Post-pandemic micro/nanoplastic pollution: toward a sustainable management
8. Toxic chemicals and persistent organic pollutants associated with micro-and nanoplastics pollution
Section 3. Green Chemistry Based Sustainable Remediation Strategies for Microplastics
9. Overview on the pathway and technology for microplastic removal from aqueous environment
10. Performance evaluations of the state-of-the-art nano-enabled strategies for microplastic remediation
11. Green nanomaterials assisted biodegradation of plastic
12. An overview of photodegradation technologies for the removal of emerging and nanomaterials
13. Removal of microplastics contaminants from municipal and industrial wastewater: technology progress and green strategies
14. Environmental impact and mitigation of micro(nano)plastics pollution using green catalytic tools and green analytical methods
15. Green-chemistry based nanomaterials as solutions for plastic remediation
16. Immobilized enzyme/microorganism complexes for degradation of microplastics
Section 4. Mitigation of Plastic Additives by Sustainable Green Nanomaterials
17. Removal of flame retardants by water by green nanomaterials
18. Advanced nanomaterials for mitigation of brominated flame retardants (pbdes, hbcd, tbbpa)
19. Sustainable degradation of chlorinated and phosphorous flame retardants by green nanomaterials
20. Removal of plasticizers by green nanomaterials
21. Green synthesized nanomaterials for removal of light stabilizers and antioxidants
Section 5. Conclusions and Future Prospects
22. Challenges and limitation associated with microplatic pollution and their mitigation techniques
23. Life-cycle analysis of plastic pollution and regulation policy at national level
24. Environmental, legal and life cycle analysis of sustainable nanomaterials
